## Extracting values

Yes, you need to write `fstN`

yourself. But why not extract it in pattern matching?

## Zipping and Unzipping values

Data.List already provides up to `zip7`

. For general `zipN`

, use a ZipList.

See http://stackoverflow.com/questions/2468226/how-to-zip-multiple-lists-in-haskell.

## Manipulating values

Not without extensions. Since all tuples are of different types, you have to create a type class, for example:

```
{-# LANGUAGE MultiParamTypeClasses, FlexibleInstances, FunctionalDependencies #-}
class Firstable a b c | a -> b, a -> c where
firstOf :: a -> b
restOf :: a -> c
concatenate :: b -> c -> a
instance Firstable [a] a [a] where
firstOf = head
restOf = tail
concatenate = (:)
instance Firstable (a,b) a b where
firstOf = fst
restOf = snd
concatenate = (,)
instance Firstable (a,b,c) a (b,c) where
firstOf (x,_,_) = x
restOf (_,x,y) = (x,y)
concatenate x (y,z) = (x,y,z)
instance Firstable (a,b,c,d) a (b,c,d) where
firstOf (x,_,_,_) = x
restOf (_,x,y,z) = (x,y,z)
concatenate x (y,z,w) = (x,y,z,w)
instance Firstable (a,b,c,d,e) a (b,c,d,e) where
firstOf (x,_,_,_,_) = x
restOf (_,x,y,z,w) = (x,y,z,w)
concatenate x (y,z,w,t) = (x,y,z,w,t)
```

Then you could use

```
incFirst :: (Num b, Firstable a b c) => a -> a
incFirst x = (1 + firstOf x) `concatenate` restOf x
main = do
print $ map incFirst [(1,2),(3,4),(5,6)]
print $ map incFirst [(1,3,6,7),(2,5,-2,4)]
```

(`lastOf`

is similar.)

But why not use separate functions?